荞麦壳增强天然可分解化合物生物复合材料工艺性能研究

Q Engineering
Aleksandr Semukhin, N. Zavorokhina, E. Pastushkova
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引用次数: 0

摘要

需要加工基于石化聚合物的包装材料,这就提出了包装生产的材料问题,而包装的原材料应该是多吨位的、可生物降解的、高性价比的。荞麦皮含有高达50%的纤维,3 - 4%的粗蛋白质,4 - 5%的脂肪,0.2 - 0.3%的糖,9-10%的灰分,单宁,能够抑制金属腐蚀,是研究的一个特别感兴趣的地方。荞麦皮有很高的堆积密度-约145公斤/立方米。它是亲水的,能够膨胀体积增加25%。该研究旨在开发基于天然可分解化合物与荞麦壳增强的复合系统。研究人员研究了明胶、海藻酸钠、黄原胶和瓜尔胶、甘油、土豆淀粉作为增塑剂化合物。他们在显微镜下确定荞麦壳表面多孔,有许多裂缝,这解释了它的亲水性。本文介绍了生物复合材料的特性及其干燥后的薄膜。一名男子透露,甘油的使用不需要水的引入,但生物复合材料有一个易碎的结构和低吸水能力。海藻酸钠基生物复合材料具有良好的可塑性、膜性强、表面亲和性好、吸水率分别为65.33%和71.08%。研究了生物复合膜的物理力学参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Technological Properties Research of Biocomposites Based on the Natural Decomposable Compounds Reinforced with Buckwheat Husk
The need to process packaging materials based on petrochemical polymers raises the question of the material for packaging production, while the raw materials for packaging should be multi-tonnage, biodegradable, cost-effective. The buckwheat husk containing up to 50 % fiber, 3–4 % crude protein, 4–5 % fat, 0.2–0.3 % sugars, 9–10% ash, tannins, which is able to inhibit metal corrosion is of a particular interest for the research. Buck wheat husk has a high bulk density – about 145 kg/m3. It is hydrophilic and is able to swell increased in volume by up to 25 %. The study aims at developing composite systems based on natural decomposable compounds reinforced with buckwheat husks. The researchers studied gelatin, sodium alginate, xanthan and guar gum, glycerin, potato starch as plasti cizer compounds. They determined that the buckwheat husk surface under the microscope was porous with many cracks, which explains its hydrophilic properties. The thesis presents characteristics of biocomposites and films from them after drying. A man revealed that the glycerin use did not require water introduction, still the biocomposite had a crumbly structure and low water absorption capacity. Biocomposites based on sodium alginate had optimal characteristics: they were plastic, formed a strong film, were well applicable to the surface, had a water absorption of 65.33 and 71.08 %, respectively. The work presented physicomechanical parameters of biocomposite films.
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来源期刊
Agro Food Industry Hi-tech
Agro Food Industry Hi-tech 工程技术-生物工程与应用微生物
CiteScore
0.29
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0.00%
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0
审稿时长
6-12 weeks
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